RU2589221C1 - Method of climatic tests of switches with spring drive and test bench - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: invention relates to machine building, particularly, to testing of military equipment, namely to ballistic missile defence and air defence. Switches are tested before their installation into the product using a complex method in thermal vacuum chamber at temperatures corresponding to ones of critical operation units in the article, in set multiple to installation in these assemblies, then circuit breakers are installed in the article and tests are carried out under normal climatic conditions together with product. Each pair of switches are installed along the horizontal axis opposite each other in a movable carriage to move along the axis; between them there replaceable stop connected with electromagnet and able to exit the contact, the stop width on the horizontal axis exceeds the sum of contact actuation strokes of paired switches, the contacts and electromagnets are connected to the input of module used for measurement and analysis of rated parameters, and electromagnets are connected to output of test mode set unit. Each carriage is connected with motor connected to the output of test mode set unit. Program of climatic condition change, time and number of actuations of each switch are input in the test mode set unit, tests are carried out in automatic mode, the module used for measurement and analysis of rated parameters reports on operating capacity of each circuit breaker.

EFFECT: result consists in enabling verification of several units in various climatic conditions at their simultaneous testing.

4 cl, 2 dwg

Description

The claimed invention relates to the field of engineering, in particular to the testing of military equipment, and specifically to missile defense and air defense.

It is known that any technical product after its manufacture enters the period of operation. Under the operating conditions understand the combination of external factors that can affect the performance of a technical product. These factors include climatic and other influences. In order for the product to work flawlessly, it must withstand, without damage and irreversible changes, the effects of various external factors characterizing the conditions of its operation. The product is exposed to various external factors during field or bench tests. In bench conditions for testing products, heat and cold chambers are very widely used. The conditions reproduced on them imitate climatic factors.

A known method of climatic testing of the tower machine gun installation and further analysis of its performance, including checking the performance in a pressure chamber at elevated and low temperatures in automatic mode, is described in RF patent No. 2488763, F41A 31/00; F41A 19/08, application No. 20111148417 of 11.29.2011 and selected for the prototype.

The disadvantages of this method are as follows:

- the impossibility of simultaneously testing several identical nodes;

- the impossibility of testing individual components before they are installed in the product;

- the impossibility of checking the operability of each node at a temperature regime corresponding to the critical operation of the node;

- the impossibility of verifying the operability of several nodes in different climatic conditions during their simultaneous testing.

In addition, there is also a known method and device of a bench for climate tests on the performance of a machine gun turret in a pressure chamber, a block of tasks for test modes, measurement units and analysis of normalized parameters described in RF patent No. 2488763, F41A 31/00; F41A 19/08.

The disadvantages of the known method and device are as follows:

- the lack of the ability to check in a pressure chamber several identical nodes;

- the impossibility of checking the operation of nodes in different climatic conditions with one installation in a pressure chamber:

The problem to which the invention is directed, is to eliminate the above disadvantages due to the fact that in the claimed method, the switches are tested before they are installed in the product in a comprehensive pressure chamber, at temperature conditions corresponding to the critical operation of the nodes in the product, in a package that is multiple installation them in these nodes, and then the switches are installed in the product and tested in normal climatic conditions together with the product. The problem is also solved due to the fact that each pair of switches is installed on a horizontal axis opposite each other in movable carriages with the ability to move along the axis, in addition, a removable stop connected to the electromagnet is installed between them with the possibility of coming out of contact. The width of the stop along the horizontal axis is greater than the sum of the strokes of the operation of the contacts of the paired circuit breakers, with the contacts and electromagnets connected to the input of the measurement and analysis unit of normalized parameters, and the electromagnets also to the output of the test task block. Each carriage is connected to an engine connected to the output of the test mode task unit. In the task block of the test modes, the program for changing the climatic conditions, the time and number of trips of each switch are set, then the tests are carried out in automatic mode, while the unit for measuring and analyzing normalized parameters reports the operability of each switch.

This allows you to test several identical nodes at the same time, as well as test individual nodes before they are installed in the product.

Check the operability of each node at a temperature regime corresponding to the critical operation of the node;

- check the operability of several nodes in different climatic conditions during their simultaneous testing;

- check the operation of the nodes in different climatic conditions with one installation in a thermal chamber.

The proposed method was tested automotive missile system "Shell C1", which allows to eliminate hidden defects, in particular the failure of the spring drive circuit breakers in the cold.

The climatic test bench for spring-actuated circuit breakers is illustrated in the drawings, where in FIG. 1 shows a block diagram of a stand. The test of two switches is conventionally shown, the arrows show the movements of the nodes, in FIG. 2 depicts a specific implementation of the stand, shows the test of six switches, one of which is conditionally cut. The switches are in the off position.

The climatic test bench for spring-loaded circuit breakers includes a pressure chamber 1 mounted on a horizontal plane, in which, in the carriages 2, opposite each other, the switches 3 are installed in pairs so that the spring contacts 4 are in the “off” position and abut against the interchangeable emphasis 5 connected to the electromagnet 6. The width of the emphasis is made more than the strokes of the contacts 4 of the switches 3 and may vary depending on the magnitude of the stroke of the contacts. The carriages 2 are mounted on the guides 7. Each carriage is connected to the engine 8.

In the pressure chamber 1, temperature sensors 9, pressure 10 and humidity 11 are also installed. The test task task block 12 is connected to the electromagnets 6, the motors 8, and the input to the power supply 14. The unit for measuring and analysis of normalized parameters 13 is connected to the switches 3, the electromagnets by the input 6, engines 8, and the input to the power supply 14. The block of measurements and analysis of normalized parameters 13 input connected to the switches 3, electromagnets 6, temperature sensors 9, pressure 10 and humidity 11 and the power supply 14, and the output to the printing device 15. The number of tested switches 3, and, accordingly, of electromagnets 6 with electric motors 8, depends on the required number of installation of the switches, at least in one product. With an odd number of tested switches, or when testing an odd number in different climatic conditions, instead of a paired switch 3, a front one is installed, without connecting to the measuring unit and analyzing the standardized parameters 13.

The test program 12 is entered in the block of the task of test modes 12:

- the number of times each switch 3 is turned on and the conditions when they trip;

- exposure time to response, temperature, pressure, humidity.

In the block of measurements and analysis of standardized parameters 13 sets the normalized response time of the switches 3 and the climatic conditions during operation.

The stand works as follows. The power supply 14 includes a task unit of test modes 12, which controls the temperature, humidity and pressure in the pressure chamber 1 in accordance with the test program. In addition, the test task task block includes each electromagnet 6 with fixed climatic parameters. The electromagnet takes away the interchangeable stop 5, allowing the two paired spring contacts 4 of the switches 3 to trip, while supplying a signal to the unit for measuring and analyzing normalized parameters. When tripped, each switch supplies an electric signal to the block of measurements and analysis of normalized parameters 13, which records the response time equal to the difference between the turn-on time of the electromagnet 6 with a fixed delay (the output time of the replacement stop 5 from the contact with the switch 3) and the time of the full output of the spring contact 4. With full output, the spring contact closes the electrical circuit (“on” position). The unit of measurements and analysis of standardized parameters 13 compares the response time with the normalized indicator and gives a conclusion about the suitability of the switches 3. The proposed table shows the specified operating conditions of the switches 3.

The task block of the test modes 12 includes those electric motors 8, where the circuit breakers 3 are activated. The electric motors divert the carriages 2 along the guides 7 together with the tripped circuit breakers. Next, the block of the task of the test modes 12 includes an electromagnet 6, which brings the removable stop 5. Then, the block of the task of the test modes includes motors 8, which at this time bring the carriages 2 with switches 3 to the replaceable stop 5 until the spring contacts 4 are deformed equal to the initial state ". At the same time, the block of the task of test modes 12 changes the pressure, temperature and humidity in accordance with the test program laid down in it, and the block of measurements and analysis of standardized parameters 13, through sensors of temperature 9, pressure 10 and humidity 11, records and compares them with the program parameters. The cycles are repeated up to a predetermined number of inclusions, after which the printing device 15 displays the test results on paper. Tests of switches 3 without motors 8 are possible, but require the depressurization of the pressure chamber 1 and manual movement of the carriages 2 before each inclusion of the electromagnets 6.

Thermal pressure chamber of the STBV-800 brand, motors — SD 2 synchronous motors. The test mode task block is based on a computer timer, the unit for measuring and analyzing normalized parameters is based on a voltmeter relay, computer clock, threshold block (operational amplifier 140 UD), and a microprocessor. The power supply is based on a VAKS -1-30 power supply. Electromagnet series 3MIS. Pressure sensor - PDTVH brand, TPK brand temperature sensor, RHP-W brand humidity sensor. The printing device is a printer.

Claims (4)

1. The method of climate testing of switches with a spring drive for operability in the product, including checking the operation of the contact in the pressure chamber, characterized in that the switches are tested before they are installed in the product, comprehensively, in the pressure chamber at temperature conditions corresponding to the critical operation of the nodes in the product, the package, multiple installation of them in these nodes, then the switches are installed in the product and conduct tests in normal climatic conditions together with the product. 2. A stand for carrying out climatic tests of the operation of the contact of switches with a spring drive, including a pressure chamber, a unit for tasking test modes, a unit for measuring and analyzing normalized parameters, characterized in that each pair of switches is installed on a horizontal axis opposite each other in movable carriages with the possibility movement along the axis, between them there is a removable stop connected to the electromagnet with the possibility of getting out of contact, while the width of the stop along the horizontal axis is greater than the sum of the moves tripping of contacts of paired circuit breakers, with the contacts and electromagnets connected to the input of the block of measurements and analysis of normalized parameters, and the electromagnets also to the output of the block of the task of the test modes. 3. The stand according to claim 2, characterized in that each carriage is connected to an engine connected to the output of the test mode task unit. 4. The stand according to claim 2, characterized in that in the block of tasks of the test modes set the program for changing the climatic conditions, the time and number of trips of each switch, carry out tests in automatic mode, while the block of measurements and analysis of normalized parameters reports the operability of each switch.

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